Means and method of securing uniform tension upon and extending the life of silkscreen

ABSTRACT

A linking element for use in conjunction with silk screening. The linking element, which includes apparatus enabling securement to the screening fabric, is attached to a strip of fabric to be secured to the stretching frame, enabling the use of a smaller screening fabric and more control over the tension. The element may be used in tandem.

TECHNICAL FIELD

This invention relates to the art of silkscreen application, and in particular, a method for and apparatus enabling the extended life of a silkscreen, while allowing a more uniform tension thereon during use, resulting in a superior end product.

BACKGROUND OF THE INVENTION

Use of silkscreening to transfer colors and/or patterns to wearing apparel and other objects is well known and has been utilized for a long period of time. The art of silkscreening and the mechanisms for facilitating the silk screening have evolved and improved over the years, but the one constant is the screen itself, which also has improved, which must be fabricated of a flexible, strong, durable, fine mesh fabric, and therefore, becomes quite expensive. It has, therefore, become imperative that the amount of silkscreen material that is wasted be kept to a minimum, and further, that the screen be capable of being used many times.

It is with the increasing need for efficiency in mind that screens are primarily used on retensionable frames that allow multiple use of the screen and thus have become standard, but even though the frame has many improvements over the former expandable frames utilizing rectangular cross-section elements, the screen still tends to wear at the portion where the fabric is tensioned over the frame element itself.

SUMMARY OF THE INVENTION

It is with the prior art in mind that the present invention provides a means and method for securing a more uniform tension on the screen during the printing process, but also provides the opportunity of utilizing a stronger, more coarse material, where the material actually contacts the frame, increasing the life of the screen.

It is another feature of the present invention that through the utilization of an interlocking member allowing the end-to-end or side-to-side splicing of a fine mesh screen to a more economical material to allow the use of a smaller piece of the more expensive screen, and yet accomplish the desired results.

The utilization of a smaller piece of screen material results in less material to stretch which requires less “stretch time” and therefore a quicker stabilization and earlier use.

Another feature of the present invention creates, through the utilization of one or more screen extensions, the ability to place greater tension upon the screen material.

Still another feature of the present invention is a more stable screen printing mesh.

Yet another feature of the present invention is the ability to utilize a greater percentage of the screen print area.

The use of the extension facilitates the movement of the pre-softening pocket outwardly freeing up more of the actual screen area for use enabling larger prints and facilitates the actual coating process.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a plan view of the tandem screen extender in place on a retensionable screen frame.

FIG. 2 is an isometric view of the interconnection between the silkscreen and the tandem extender bar and extender screen.

FIG. 3 is a sectional view along lines 3-3 of FIG. 2.

FIG. 4 is a sectional view showing the inventive extender as used on one form of the tensionable frame.

FIG. 5 is a sectional view showing the extender bar and extender tandem as shown on a second form of retensionable roller frame.

FIG. 6 is a plan view utilizing the tandem system in conjunction with a second extender.

BEST MODE FOR CARRYING OUT THE INVENTION

As seen in FIG. 1, a rectangular silk screen panel 2 is secured to interconnecting or splicing members 4 along the majority of each of its edges, and the interconnecting splicing or tandem members 4 is likewise connected to extender mesh strips 6, which are then, as explained hereinafter, each attached to one of the linear elements 8 of the retensionable frame. Each of the side elements 8 are interconnected by a rigid corner member 10, and as known in the prior art, a tensioning element, judiciously applied to the side members 8, allows the appropriate tension to be placed upon silkscreen member 2.

Reference is now had to FIG. 2, wherein it can be seen that the screen mesh 2 is secured to the tandem unit 4 by being secured by a spline element 12, which as explained hereinafter, is locked into the tandem unit 4. The extender mesh 6 likewise is secured to a spline member 14 and again, as explained hereinafter, is locked into member 4. The exterior or opposite edge of extender unit 6 is likewise secured to a spline 16, which is subsequently secured to the retensionable frame member.

Reference is now had to FIG. 3, wherein it can be seen that the tandem unit 4 is a wide block-shaped W in cross-section with vertical exterior legs 18 and 20 and a modified T-shaped interior leg 22, such that the fabric 2 is wrapped around spline member 12, which is then captured in a protective locking element 24, including a second protruding lip 26, which is snapped beneath the protrusion of T-shaped center leg 22. Likewise the extender mesh 6 is wrapped around spline member 14, which is then snapped into the opposite side of tandem 4 and locked in place beneath the opposite lip of the T-shaped center leg 22.

As stated hereinabove, FIGS. 4 and 5 depict two distinct retensionable frame members; the one shown in FIG. 4 includes tubular sides which are kept from bowing by a rigid supports 30 which lie inside the roller tension element 32 to which the extender 6 is secured. Extender 6 is attached to the spline member 34, which is very similar to spline member 14, described hereinabove. FIG. 5 depicts a similar attachment to a retensionable frame, wherein the roller 36 does not have a support member, but the screen may be cut to accommodate any bowing.

Reference is now had to FIG. 6 which is similar to FIG. 1 and identical numbers will identify identical elements. It is to be noted, however, that in this particular depiction, extender member 6 is actually secured to a second spline 16 to secure the structure to another tandem element, allowing a daisy chain extender 38 which is then secured to the frame element 8. This particular configuration allows increased tension upon large screens by allowing the tension to be originally applied through extender member 6 and then removing extender 38 once a predetermined extended size is reached and securing spline 16 directly to the roller 8 and applying further tension. It is to be understood that in certain circumstances more than one extender could be used depending upon the relative size of the screen and frame. Further, when greater tension is required a series of extenders may be used, sequentially removing them as the screen expands (the screens do not quickly return to size) until the desired tension is reached. It is the overall goal that the actual silkscreen never contacts the frame.

In addition to the advantages mentioned hereinabove, it is to be noted that the pre-softening of the corner can actually occur in the screen 2 itself or can in fact be accomplished by having splines 4 be shorter than the relative side of the fabric 2, allowing the pre-softening to occur in the extender mesh 6.

Further, the tandem stretching bar prevents overtensioning or breaking the silk screen fabric by physically intervening or interrupting the process when it contacts the stretching frame.

The membrane and screen printing frame connector bar can be preshaped with presoftened corner bands and deflection compensation to accept non-tailored screen printing mesh.

Thus, as can be seen, the present invention gives the silkscreen handler a method and apparatus for greatly reducing the amount of fabric used, stabilizing the fabric during use and further extends the life of the fabric. 

1. The method of securing silk screen to stretching frames, comprising the steps of: cutting the screen to size; securing the edges of the screen to a linking member, wherein the linking member includes means for securement to the screen and means for securement to the frame; securing the linking member to the frame; and stretching the silk screen to the proper tension.
 2. A securement means for use in conjunction with a silkscreen panel to prolong the life thereof, comprising a first rigid elongated element including a pair of parallel grooves extending lengthwise thereof, one to receive the edge of the silkscreen panel and one to receive the edge of a durable material membrane and means along the opposite edge of the durable material membrane for connection to a stretching frame.
 3. A method of securing silk screen mesh to a stretching frame, comprising the steps of: cutting the silk screen mesh to size in the shape of a rectangle; securing an elongated rigid element along each edge of the silk screen mesh; securing a relatively strong strip of mesh to the elongated rigid elements; securing the relatively strong strip of mesh to the stretching frame; and placing the fabric under the appropriate tension.
 4. A method as in claim 3 and further including securing a flexible strip along each edge of the silk screen mesh prior to securement to the rigid element.
 5. Means for securing a silk screen fabric to a frame, comprising: an elongated rigid element adapted to be secured along one edge of the silk screen fabric; and a relatively strong strip of fabric secured to the elongated rigid element at a location different from where the silk screen fabric is to be attached, whereby when the silk screen fabric is attached to the elongated rigid element and the relatively strong strip is attached to each side of the frame, the silk screen fabric may uniformly and repeatedly be tensioned.
 6. A device for securing adjacent pieces of fabric, comprising: an elongated strip; and said elongated strip comprising a squared wide asymmetrical W in cross section, wherein the two outside legs are approximately parallel and perpendicular to the base, and the middle leg is an asymmetrical T providing opposing outwardly protruding lips to capture the fabric.
 7. The method of claim 1 wherein the linking member includes strips of material less expensive than the silk screen thereby reducing the use to expensive silk screen.
 8. A method as in claim 3 wherein the elongated rigid elements serve to prevent overtensioning of the fabric.
 9. A device as in claim 6 wherein the device serves as an elevated barrier containing ink and thereby facilitates clean up.
 10. A device as in claim 6 wherein the device provides a surface to support masking material. 